[deliverable/linux.git] / drivers / s390 / char / hmcdrv_cache.c

/*
 *    SE/HMC Drive (Read) Cache Functions
 *
 *    Copyright IBM Corp. 2013
 *    Author(s): Ralf Hoppe (rhoppe@de.ibm.com)
 *
 */

#define KMSG_COMPONENT "hmcdrv"
#define pr_fmt(fmt) KMSG_COMPONENT ": " fmt

#include <linux/kernel.h>
#include <linux/mm.h>
#include <linux/jiffies.h>

#include "hmcdrv_ftp.h"
#include "hmcdrv_cache.h"

#define HMCDRV_CACHE_TIMEOUT		30 /* aging timeout in seconds */

/**
 * struct hmcdrv_cache_entry - file cache (only used on read/dir)
 * @id: FTP command ID
 * @content: kernel-space buffer, 4k aligned
 * @len: size of @content cache (0 if caching disabled)
 * @ofs: start of content within file (-1 if no cached content)
 * @fname: file name
 * @fsize: file size
 * @timeout: cache timeout in jiffies
 *
 * Notice that the first three members (id, fname, fsize) are cached on all
 * read/dir requests. But content is cached only under some preconditions.
 * Uncached content is signalled by a negative value of @ofs.
 */
struct hmcdrv_cache_entry {
	enum hmcdrv_ftp_cmdid id;
	char fname[HMCDRV_FTP_FIDENT_MAX];
	size_t fsize;
	loff_t ofs;
	unsigned long timeout;
	void *content;
	size_t len;
};

static int hmcdrv_cache_order; /* cache allocated page order */

static struct hmcdrv_cache_entry hmcdrv_cache_file = {
	.fsize = SIZE_MAX,
	.ofs = -1,
	.len = 0,
	.fname = {'\0'}
};

/**
 * hmcdrv_cache_get() - looks for file data/content in read cache
 * @ftp: pointer to FTP command specification
 *
 * Return: number of bytes read from cache or a negative number if nothing
 * in content cache (for the file/cmd specified in @ftp)
 */
static ssize_t hmcdrv_cache_get(const struct hmcdrv_ftp_cmdspec *ftp)
{
	loff_t pos; /* position in cache (signed) */
	ssize_t len;

	if ((ftp->id != hmcdrv_cache_file.id) ||
	    strcmp(hmcdrv_cache_file.fname, ftp->fname))
		return -1;

	if (ftp->ofs >= hmcdrv_cache_file.fsize) /* EOF ? */
		return 0;

	if ((hmcdrv_cache_file.ofs < 0) || /* has content? */
	    time_after(jiffies, hmcdrv_cache_file.timeout))
		return -1;

	/* there seems to be cached content - calculate the maximum number
	 * of bytes that can be returned (regarding file size and offset)
	 */
	len = hmcdrv_cache_file.fsize - ftp->ofs;

	if (len > ftp->len)
		len = ftp->len;

	/* check if the requested chunk falls into our cache (which starts
	 * at offset 'hmcdrv_cache_file.ofs' in the file of interest)
	 */
	pos = ftp->ofs - hmcdrv_cache_file.ofs;

	if ((pos >= 0) &&
	    ((pos + len) <= hmcdrv_cache_file.len)) {

		memcpy(ftp->buf,
		       hmcdrv_cache_file.content + pos,
		       len);
		pr_debug("using cached content of '%s', returning %zd/%zd bytes\n",
			 hmcdrv_cache_file.fname, len,
			 hmcdrv_cache_file.fsize);

		return len;
	}

	return -1;
}

/**
 * hmcdrv_cache_do() - do a HMC drive CD/DVD transfer with cache update
 * @ftp: pointer to FTP command specification
 * @func: FTP transfer function to be used
 *
 * Return: number of bytes read/written or a (negative) error code
 */
static ssize_t hmcdrv_cache_do(const struct hmcdrv_ftp_cmdspec *ftp,
			       hmcdrv_cache_ftpfunc func)
{
	ssize_t len;

	/* only cache content if the read/dir cache really exists
	 * (hmcdrv_cache_file.len > 0), is large enough to handle the
	 * request (hmcdrv_cache_file.len >= ftp->len) and there is a need
	 * to do so (ftp->len > 0)
	 */
	if ((ftp->len > 0) && (hmcdrv_cache_file.len >= ftp->len)) {

		/* because the cache is not located at ftp->buf, we have to
		 * assemble a new HMC drive FTP cmd specification (pointing
		 * to our cache, and using the increased size)
		 */
		struct hmcdrv_ftp_cmdspec cftp = *ftp; /* make a copy */
		cftp.buf = hmcdrv_cache_file.content;  /* and update */
		cftp.len = hmcdrv_cache_file.len;      /* buffer data */

		len = func(&cftp, &hmcdrv_cache_file.fsize); /* now do */

		if (len > 0) {
			pr_debug("caching %zd bytes content for '%s'\n",
				 len, ftp->fname);

			if (len > ftp->len)
				len = ftp->len;

			hmcdrv_cache_file.ofs = ftp->ofs;
			hmcdrv_cache_file.timeout = jiffies +
				HMCDRV_CACHE_TIMEOUT * HZ;
			memcpy(ftp->buf, hmcdrv_cache_file.content, len);
		}
	} else {
		len = func(ftp, &hmcdrv_cache_file.fsize);
		hmcdrv_cache_file.ofs = -1; /* invalidate content */
	}

	if (len > 0) {
		/* cache some file info (FTP command, file name and file
		 * size) unconditionally
		 */
		strlcpy(hmcdrv_cache_file.fname, ftp->fname,
			HMCDRV_FTP_FIDENT_MAX);
		hmcdrv_cache_file.id = ftp->id;
		pr_debug("caching cmd %d, file size %zu for '%s'\n",
			 ftp->id, hmcdrv_cache_file.fsize, ftp->fname);
	}

	return len;
}

/**
 * hmcdrv_cache_cmd() - perform a cached HMC drive CD/DVD transfer
 * @ftp: pointer to FTP command specification
 * @func: FTP transfer function to be used
 *
 * Attention: Notice that this function is not reentrant - so the caller
 * must ensure exclusive execution.
 *
 * Return: number of bytes read/written or a (negative) error code
 */
ssize_t hmcdrv_cache_cmd(const struct hmcdrv_ftp_cmdspec *ftp,
			 hmcdrv_cache_ftpfunc func)
{
	ssize_t len;

	if ((ftp->id == HMCDRV_FTP_DIR) || /* read cache */
	    (ftp->id == HMCDRV_FTP_NLIST) ||
	    (ftp->id == HMCDRV_FTP_GET)) {

		len = hmcdrv_cache_get(ftp);

		if (len >= 0) /* got it from cache ? */
			return len; /* yes */

		len = hmcdrv_cache_do(ftp, func);

		if (len >= 0)
			return len;

	} else {
		len = func(ftp, NULL); /* simply do original command */
	}

	/* invalidate the (read) cache in case there was a write operation
	 * or an error on read/dir
	 */
	hmcdrv_cache_file.id = HMCDRV_FTP_NOOP;
	hmcdrv_cache_file.fsize = LLONG_MAX;
	hmcdrv_cache_file.ofs = -1;

	return len;
}

/**
 * hmcdrv_cache_startup() - startup of HMC drive cache
 * @cachesize: cache size
 *
 * Return: 0 on success, else a (negative) error code
 */
int hmcdrv_cache_startup(size_t cachesize)
{
	if (cachesize > 0) { /* perform caching ? */
		hmcdrv_cache_order = get_order(cachesize);
		hmcdrv_cache_file.content =
			(void *) __get_free_pages(GFP_KERNEL | GFP_DMA,
						  hmcdrv_cache_order);

		if (!hmcdrv_cache_file.content) {
			pr_err("Allocating the requested cache size of %zu bytes failed\n",
			       cachesize);
			return -ENOMEM;
		}

		pr_debug("content cache enabled, size is %zu bytes\n",
			 cachesize);
	}

	hmcdrv_cache_file.len = cachesize;
	return 0;
}

/**
 * hmcdrv_cache_shutdown() - shutdown of HMC drive cache
 */
void hmcdrv_cache_shutdown(void)
{
	if (hmcdrv_cache_file.content) {
		free_pages((unsigned long) hmcdrv_cache_file.content,
			   hmcdrv_cache_order);
		hmcdrv_cache_file.content = NULL;
	}

	hmcdrv_cache_file.id = HMCDRV_FTP_NOOP;
	hmcdrv_cache_file.fsize = LLONG_MAX;
	hmcdrv_cache_file.ofs = -1;
	hmcdrv_cache_file.len = 0; /* no cache */
}
Commit	Line	Data
8f933b10 RH	1	/*
	2	* SE/HMC Drive (Read) Cache Functions
	3	*
	4	* Copyright IBM Corp. 2013
	5	* Author(s): Ralf Hoppe (rhoppe@de.ibm.com)
	6	*
	7	*/
	8
	9	#define KMSG_COMPONENT "hmcdrv"
	10	#define pr_fmt(fmt) KMSG_COMPONENT ": " fmt
	11
	12	#include <linux/kernel.h>
	13	#include <linux/mm.h>
	14	#include <linux/jiffies.h>
	15
	16	#include "hmcdrv_ftp.h"
	17	#include "hmcdrv_cache.h"
	18
	19	#define HMCDRV_CACHE_TIMEOUT 30 /* aging timeout in seconds */
	20
	21	/**
	22	* struct hmcdrv_cache_entry - file cache (only used on read/dir)
	23	* @id: FTP command ID
	24	* @content: kernel-space buffer, 4k aligned
	25	* @len: size of @content cache (0 if caching disabled)
	26	* @ofs: start of content within file (-1 if no cached content)
	27	* @fname: file name
	28	* @fsize: file size
	29	* @timeout: cache timeout in jiffies
	30	*
	31	* Notice that the first three members (id, fname, fsize) are cached on all
	32	* read/dir requests. But content is cached only under some preconditions.
	33	* Uncached content is signalled by a negative value of @ofs.
	34	*/
	35	struct hmcdrv_cache_entry {
	36	enum hmcdrv_ftp_cmdid id;
	37	char fname[HMCDRV_FTP_FIDENT_MAX];
	38	size_t fsize;
	39	loff_t ofs;
	40	unsigned long timeout;
	41	void *content;
	42	size_t len;
	43	};
	44
	45	static int hmcdrv_cache_order; /* cache allocated page order */
	46
	47	static struct hmcdrv_cache_entry hmcdrv_cache_file = {
	48	.fsize = SIZE_MAX,
	49	.ofs = -1,
	50	.len = 0,
	51	.fname = {'\0'}
	52	};
	53
	54	/**
	55	* hmcdrv_cache_get() - looks for file data/content in read cache
	56	* @ftp: pointer to FTP command specification
	57	*
	58	* Return: number of bytes read from cache or a negative number if nothing
	59	* in content cache (for the file/cmd specified in @ftp)
	60	*/
	61	static ssize_t hmcdrv_cache_get(const struct hmcdrv_ftp_cmdspec *ftp)
	62	{
	63	loff_t pos; /* position in cache (signed) */
	64	ssize_t len;
65
66	if ((ftp->id != hmcdrv_cache_file.id) \|\|
67	strcmp(hmcdrv_cache_file.fname, ftp->fname))
68	return -1;
69
70	if (ftp->ofs >= hmcdrv_cache_file.fsize) /* EOF ? */
71	return 0;
72
73	if ((hmcdrv_cache_file.ofs < 0) \|\| /* has content? */
74	time_after(jiffies, hmcdrv_cache_file.timeout))
75	return -1;
76
77	/* there seems to be cached content - calculate the maximum number
78	* of bytes that can be returned (regarding file size and offset)
79	*/
80	len = hmcdrv_cache_file.fsize - ftp->ofs;
81
82	if (len > ftp->len)
83	len = ftp->len;
84
85	/* check if the requested chunk falls into our cache (which starts
86	* at offset 'hmcdrv_cache_file.ofs' in the file of interest)
87	*/
88	pos = ftp->ofs - hmcdrv_cache_file.ofs;
89
90	if ((pos >= 0) &&
91	((pos + len) <= hmcdrv_cache_file.len)) {
92
93	memcpy(ftp->buf,
94	hmcdrv_cache_file.content + pos,
95	len);
96	pr_debug("using cached content of '%s', returning %zd/%zd bytes\n",
97	hmcdrv_cache_file.fname, len,
98	hmcdrv_cache_file.fsize);
99
100	return len;
101	}
102
103	return -1;
104	}
105
106	/**
107	* hmcdrv_cache_do() - do a HMC drive CD/DVD transfer with cache update
108	* @ftp: pointer to FTP command specification
109	* @func: FTP transfer function to be used
110	*
111	* Return: number of bytes read/written or a (negative) error code
112	*/
113	static ssize_t hmcdrv_cache_do(const struct hmcdrv_ftp_cmdspec *ftp,
114	hmcdrv_cache_ftpfunc func)
115	{
116	ssize_t len;
117
118	/* only cache content if the read/dir cache really exists
119	* (hmcdrv_cache_file.len > 0), is large enough to handle the
120	* request (hmcdrv_cache_file.len >= ftp->len) and there is a need
121	* to do so (ftp->len > 0)
122	*/
123	if ((ftp->len > 0) && (hmcdrv_cache_file.len >= ftp->len)) {
124
125	/* because the cache is not located at ftp->buf, we have to
126	* assemble a new HMC drive FTP cmd specification (pointing
127	* to our cache, and using the increased size)
128	*/
129	struct hmcdrv_ftp_cmdspec cftp = ftp; / make a copy */
130	cftp.buf = hmcdrv_cache_file.content; /* and update */
131	cftp.len = hmcdrv_cache_file.len; /* buffer data */
132
133	len = func(&cftp, &hmcdrv_cache_file.fsize); /* now do */
134
135	if (len > 0) {
136	pr_debug("caching %zd bytes content for '%s'\n",
137	len, ftp->fname);
138
139	if (len > ftp->len)
140	len = ftp->len;
141
142	hmcdrv_cache_file.ofs = ftp->ofs;
143	hmcdrv_cache_file.timeout = jiffies +
144	HMCDRV_CACHE_TIMEOUT * HZ;
145	memcpy(ftp->buf, hmcdrv_cache_file.content, len);
146	}
147	} else {
148	len = func(ftp, &hmcdrv_cache_file.fsize);
149	hmcdrv_cache_file.ofs = -1; /* invalidate content */
150	}
151
152	if (len > 0) {
153	/* cache some file info (FTP command, file name and file
154	* size) unconditionally
155	*/
156	strlcpy(hmcdrv_cache_file.fname, ftp->fname,
157	HMCDRV_FTP_FIDENT_MAX);
158	hmcdrv_cache_file.id = ftp->id;
159	pr_debug("caching cmd %d, file size %zu for '%s'\n",
160	ftp->id, hmcdrv_cache_file.fsize, ftp->fname);
161	}
162
163	return len;
164	}
165
166	/**
167	* hmcdrv_cache_cmd() - perform a cached HMC drive CD/DVD transfer
168	* @ftp: pointer to FTP command specification
169	* @func: FTP transfer function to be used
170	*
171	* Attention: Notice that this function is not reentrant - so the caller
172	* must ensure exclusive execution.
173	*
174	* Return: number of bytes read/written or a (negative) error code
175	*/
176	ssize_t hmcdrv_cache_cmd(const struct hmcdrv_ftp_cmdspec *ftp,
177	hmcdrv_cache_ftpfunc func)
178	{
179	ssize_t len;
180
181	if ((ftp->id == HMCDRV_FTP_DIR) \|\| /* read cache */
182	(ftp->id == HMCDRV_FTP_NLIST) \|\|
183	(ftp->id == HMCDRV_FTP_GET)) {
184
185	len = hmcdrv_cache_get(ftp);
186
187	if (len >= 0) /* got it from cache ? */
188	return len; /* yes */
189
190	len = hmcdrv_cache_do(ftp, func);
191
192	if (len >= 0)
193	return len;
194
195	} else {
196	len = func(ftp, NULL); /* simply do original command */
197	}
198
199	/* invalidate the (read) cache in case there was a write operation
200	* or an error on read/dir
201	*/
202	hmcdrv_cache_file.id = HMCDRV_FTP_NOOP;
203	hmcdrv_cache_file.fsize = LLONG_MAX;
204	hmcdrv_cache_file.ofs = -1;
205
206	return len;
207	}
208
209	/**
210	* hmcdrv_cache_startup() - startup of HMC drive cache
211	* @cachesize: cache size
212	*
213	* Return: 0 on success, else a (negative) error code
214	*/
215	int hmcdrv_cache_startup(size_t cachesize)
216	{
217	if (cachesize > 0) { /* perform caching ? */
218	hmcdrv_cache_order = get_order(cachesize);
219	hmcdrv_cache_file.content =
220	(void *) __get_free_pages(GFP_KERNEL \| GFP_DMA,
221	hmcdrv_cache_order);
222
223	if (!hmcdrv_cache_file.content) {
224	pr_err("Allocating the requested cache size of %zu bytes failed\n",
225	cachesize);
226	return -ENOMEM;
227	}
228
229	pr_debug("content cache enabled, size is %zu bytes\n",
230	cachesize);
231	}
232
233	hmcdrv_cache_file.len = cachesize;
234	return 0;
235	}
236
237	/**
238	* hmcdrv_cache_shutdown() - shutdown of HMC drive cache
239	*/
240	void hmcdrv_cache_shutdown(void)
241	{
242	if (hmcdrv_cache_file.content) {
243	free_pages((unsigned long) hmcdrv_cache_file.content,
244	hmcdrv_cache_order);
245	hmcdrv_cache_file.content = NULL;
246	}
247
248	hmcdrv_cache_file.id = HMCDRV_FTP_NOOP;
249	hmcdrv_cache_file.fsize = LLONG_MAX;
250	hmcdrv_cache_file.ofs = -1;
251	hmcdrv_cache_file.len = 0; /* no cache */
252	}